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I want to do stepwise regression using AIC on a list of linear models. idea is to use e a list of linear models and then apply stepAIC on each list element. It fails.

Hi guys I tried to track the problem down. I think I found the problem. However, I dont understand the cause. Try the code to see the difference between three cases.

require(MASS)
n<-30 
x1<-rnorm(n, mean=0, sd=1) #create rv x1 
x2<-rnorm(n, mean=1, sd=1)
x3<-rnorm(n, mean=2, sd=1)
epsilon<-rnorm(n,mean=0,sd=1) # random error variable 
dat<-as.data.frame(cbind(x1,x2,x3,epsilon)) # combine to a data frame
dat$id<-c(rep(1,10),rep(2,10),rep(3,10)) 
# y is combination from all three x and a random uniform variable
dat$y<-x1+x2+x3+epsilon 
# apply lm() only resulting in a list of models
dat.lin.model.lst<-lapply(split(dat,dat$id),function(d) lm(y~x1+x2+x3,data=d)) 
stepAIC(dat.lin.model.lst[[1]]) # FAIL!!!
# apply function stepAIC(lm())-  works
dat.lin.model.stepAIC.lst<-lapply(split(dat,dat$id),function(d) stepAIC(lm(y~x1+x2+x3,data=d))) 
# create model for particular group with id==1
k<-which(dat$id==1) # manually select records with id==1
lin.model.id1<-lm(dat$y[k]~dat$x1[k]+dat$x2[k]+dat$x3[k]) 
stepAIC(lin.model.id1) # check stepAIC - works!

I am pretty sure that stepAIC() needs the original data from data.frame "dat". That is what I was thinking of before. (Hope I am right on that) But there is no parameter in stepAIC() where I can pass the original data frame. Obviously, for plain models not wrapped in a list it's enough to pass the model. (last three lines in code) So I am wondering:
Q1: How does stepAIC knows where to find the original data "dat" (not only the model data which is passed as parameter)?
Q2: How can I possibly know that there is another parameter in stepAIC() which is not explicitly stated in the help pages? (maybe my English is just too bad to find)
Q3: How can I pass that parameter to stepAIC()?

It must be somewhere in the environment of the apply function and passing on the data. Either lm() or stepAIC() and the pointer/link to the raw data must get lost somewhere. I have not a good understanding what an environment in R does. For me it was kind of isolating local from global variables. But maybe its more complicated. Anyone who can explain that to me in regard to the problem above? Honestly, I dont read much out of the R documentation. Any better understanding would help me. Thank you.

OLD: I have data in a dataframe df that can be split into several subgroups. For that purpose I created a groupID called df$id. lm() returns the coefficent as expected for the first subgroup. I want to do a stepwise regression using AIC as criterion for each subgroup separately. I use lmList {lme4} which results in a model for each subgroup (id). But if I use stepAIC{MASS} for the list elements it throws an error. see below.

So the question is: What mistake is in my procedure/syntax? I get results for single models but not the ones created with lmList. Does lmList() store different information on the model than lm() does?
But in the help it states: class "lmList": A list of objects of class lm with a common model.

>lme4.list.lm<-lmList(formula=Scherkraft.N~Gap.um+Standoff.um+Voidflaeche.px |df$id,data = df)
>lme4.list.lm[[1]]
Call: lm(formula = formula, data = data)
Coefficients:
(Intercept)          Gap.um     Standoff.um  Voidflaeche.px  
  62.306133       -0.009878        0.026317       -0.015048  

>stepAIC(lme4.list.lm[[1]], direction="backward") 
#stepAIC on first element on the list of linear models
Start:  AIC=295.12
Scherkraft.N ~ Gap.um + Standoff.um + Voidflaeche.px
                 Df Sum of Sq    RSS    AIC
- Standoff.um     1      2.81 7187.3 293.14
- Gap.um          1     29.55 7214.0 293.37
<none>                        7184.4 295.12
- Voidflaeche.px  1    604.38 7788.8 297.97  

Error in terms.formula(formula, data = data) : 
'data' argument is of the wrong type

Obviously something does not work with the list. But I have not an idea what it might be. Since I tried to do the same with the base package which creates the same model (at least the same coefficients). Results are below:

>lin.model<-lm(Scherkraft.N ~ Gap.um + Standoff.um + Voidflaeche.px,df[which(df$id==1),]) 
# id is in order, so should be the same subgroup as for the first list element in lmList

Coefficients:  
(Intercept)    Gap.um  Standoff.um  Voidflaeche.px  
  62.306133 -0.009878     0.026317       -0.015048  

Well, this is what I get returned using stepAIC on my linear.model . As far as I know the akaike information criterion can be used to estimate which model better balances between fit and generalization given some data.

>stepAIC(lin.model,direction="backward")
Start:  AIC=295.12
Scherkraft.N ~ Gap.um + Standoff.um + Voidflaeche.px
                 Df Sum of Sq    RSS    AIC
- Standoff.um     1      2.81 7187.3 293.14  
- Gap.um          1     29.55 7214.0 293.37
<none>                        7184.4 295.12
- Voidflaeche.px  1    604.38 7788.8 297.97  

Step:  AIC=293.14
Scherkraft.N ~ Gap.um + Voidflaeche.px
                 Df Sum of Sq    RSS    AIC
- Gap.um          1     28.51 7215.8 291.38
 <none>                        7187.3 293.14
- Voidflaeche.px  1    717.63 7904.9 296.85

Step:  AIC=291.38
Scherkraft.N ~ Voidflaeche.px
                 Df Sum of Sq    RSS    AIC
<none>                        7215.8 291.38
- Voidflaeche.px  1    795.46 8011.2 295.65
Call: lm(formula = Scherkraft.N ~ Voidflaeche.px, data = df[which(df$id == 1), ])

Coefficients:
(Intercept)  Voidflaeche.px  
   71.7183         -0.0151  

I read from the output I should use the model: Scherkraft.N ~ Voidflaeche.px because this is the minimal AIC. Well, it would be nice if someone could shortly describe the output. My understanding of the stepwise regression (assuming backwards elimination) is all regressors are included in the initial model. Then the least important one is eliminated. The criterion to decide is the AIC. and so forth... Somehow I have problems to get the tables interpreted right. It would be nice if someone could confirm my interpretation. The "-"(minus) stands for the eliminated regressor. On top is the "start" model and in the table table below the RSS and AIC are calculated for possible eliminations. So the first row in the first table says a model Scherkraft.N~Gap.um+Standoff.um+Voidflaeche.px - Standoff.um would result in an AIC 293.14. Choose the one without Standoff.um: Scherkraft.N~Gap.um+Voidflaeche.px

EDIT:
I replaced the lmList{lme4} with dlply() to create the list of models. Still stepAIC is not coping with the list. It throws another error. Actually, I believe it is a problem with the data stepAIC needs to run through. I was wondering how it calculates the AIC-value for each step just from the model data. I would take the original data to construct the models leaving one regressor out each time. Thereof I would calculate the AIC and compare. So how stepAIC is working if it has not access to the original data. (I cant see a parameter where I pass the original data to stepAIC). Still, I have no clue why it works with a plain model but not with the model wrapped in a list.

>model.list.all <- dlply(df, .id, function(x) 
  {return(lm(Scherkraft.N~Gap.um+Standoff.um+Voidflaeche.px,data=x)) })
>stepAIC(model.list.all[[1]])
Start:  AIC=295.12
Scherkraft.N ~ Gap.um + Standoff.um + Voidflaeche.px
                 Df Sum of Sq    RSS    AIC
- Standoff.um     1      2.81 7187.3 293.14
- Gap.um          1     29.55 7214.0 293.37
<none>                        7184.4 295.12
- Voidflaeche.px  1    604.38 7788.8 297.97
Error in is.data.frame(data) : object 'x' not found
share|improve this question
    
Its probably not the reason, but df is also a function, so its better to give your dataframe a different name. –  James Feb 6 '12 at 14:19
1  
AIC is a trade off between explaining deviance and overfitting the model - adding parameters or increasing deviance incurs a penalty –  James Feb 6 '12 at 14:27
    
I'm not able to reproduce the error in the (current) first section. What output do you get? And what version of R are you running? –  Aaron Apr 19 '12 at 13:56
    
Its a whila ago. But I can see an error after >stepAIC(dat.lin.model.lst[[1]]) It starts with the AIC procedure but complains with: Error in inherits(x, "data.frame") : object 'd' not found. I used for that 2.13. But you are right don't have any problems in 2.14.2 –  Sebastian Apr 19 '12 at 14:43
    
Aehm wait. I think it depends on the data I supply. rerun the code and the error disappeared. So I suppose it is dependent on th random generated numbers. Still strange error message which complains of a not found object. –  Sebastian Apr 19 '12 at 14:47

1 Answer 1

up vote 3 down vote accepted

I'm not sure what may have changed in the versioning to make the debugging so difficult, but one solution would be to use do.call, which evaluates the expressions in the call before executing it. This means that instead of storing just d in the call, so that update and stepAIC need to go find d in order to do their work, it stores a full representation of the data frame itself.

That is, do

do.call("lm", list(y~x1+x2+x3, data=d))

instead of

lm(y~x1+x2+x3, data=d)

You can see what it's trying to do by looking at the call element of the model, perhaps like this:

dat.lin.model.lst <- lapply(split(dat, dat$id), function(d)
                            do.call("lm", list(y~x1+x2+x3, data=d)) )
dat.lin.model.lst[[1]]$call

It's also possible to make your list of data frames in the global environment and then construct the call so that update and stepAIC look for each data frame in turn, because their environment chains always lead back to the global environment; like this:

dats <- split(dat, dat$id)
dat.lin.model.list <- lapply(seq_along(dats), function(d)
            do.call("lm", list(y~x1+x2+x3, data=call("[[", quote(dats),i))) )

To see what's changed, run dat.lin.model.lst[[1]]$call again.

share|improve this answer
    
Also see this related question. –  Aaron Apr 23 '12 at 14:34
    
I think the problem I had was not R-version dependent rather than dependent on the the supplied data. Could you try set.seed(seed); x1<-rnorm(n, mean=0, sd=1); set.seed(seed+1); x2<-rnorm(n, mean=1, sd=1); set.seed(seed+2); x3<-rnorm(n, mean=2, sd=1); set.seed(seed+3); epsilon<-rnorm(n,mean=0,sd=1) with seed<-100 and with seed<-99. HOWEVER regardless of the supplied data the do.call seems to work. That makes me think something is not right. –  Sebastian Apr 26 '12 at 6:41
    
OK, I got the idea with the data. I start with a complete model and do stepwise reduction. In case none of the initial reduction alternatives results in a better AIC the procedure stops and I get the complete model as a result. In case I can improve my model with a reduction, the stepAIC procedure needs to use the initial data=d which cannot be found in the search space. So it throws an error only if there is reduction step involved which is dependent on the data. THIS is really tricky because the sample data might run smooth but on real data it can quit the procedure. Once again use do.call() –  Sebastian Apr 26 '12 at 7:05
    
I didn't follow all of that but it sounds reasonable and sounds like you're considering the important issues. It is definitely really tricky. Things like update and stepAIC are very difficult to include in functions. –  Aaron Apr 26 '12 at 12:21

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